CS231882B1 - Glass melting control system - Google Patents

Abstract

The regulation system of the glass flow consists of the arrangement of freely rotating discs placed on water-cooled shafts, extending 5 to 10 cm from the edge of the glass being flowed. The number of freely rotating discs in combination with synchronized driven discs depends on the thickness of the float glass.

Description

The present invention relates to a molten glass control system on a float bath.

The known float control and control elements, for example, are designed such that a metal fine-toothed wheel is fixedly mounted on the hollow cooled edged shaft, which rolls approximately 10 cm from the edge of the molten glass on the formed strip.

The method disclosed in Japanese Patent No. 5,223,644 is also known in which flood control is performed by a partially submerged ring cooler in a float bath, wherein the float glass slides along the edge of the cooler.

Also known is a method of regulating by means of a plurality of nozzles disposed in the wall of the bath mirror-inverted according to United Kingdom Patent No. 137,641, wherein the regulation is effected by varying the intensity of the flowing medium.

According to United Kingdom Patent No. 1,469,281, a shuttle-cooled float, arranged in several rows, mirror-facing, partially immersed in a bath provides control. Japanese Patent No. 5,327,730 discloses a control system comprising a plurality of pairs of conduits facing each other such that a solid roller is pressed into the molten glass, the roller edge securing the conduit, and at the rear of the flow stabilization bath above the sheet placed coolers.

A non-contact regulating member is disclosed in United Kingdom Patent No. 1,436,783, which element is located in the side lining of the bath just above the surface with the possibility of horizontal displacement so as to be equipped with both a heating element and cooling.

The function of this element is versatile and is practically adjusted at the divider of the glass and bath edge. In German DAS No. 2,127,491 there is disclosed a method according to which the edge of the molten glass is pressed by non-rotatable rollers arranged at an angle to the wall of the bath mirror-like in several pairs against each other.

The disadvantage of these systems is the considerable energy demand and the necessity of synchronization of individual shafts. Non-contact controllers have a long rise time.

Disadvantages of these methods are eliminated by the control system according to the invention, characterized in that 3 to 5 pairs of elements are arranged mirror-side to each other, and at least the last hollow water-cooled shaft is provided with a carbon, freely rotatable disc.

The position of the shaft in the bath wall is at an angle of 12 ° in the direction of the glass float. The carbon, freely rotating disc is provided with a double-row toothing, the height of the teeth being in the ratio of 1:40 to 1:60 relative to the disc diameter.

By free rotation of the disc depending on the speed of the float glass, continuous flooding is achieved without the need for speed control by the variator.

The glass melting control system according to the invention has the advantage over the prior art in that the carbon toothed disk rotates spontaneously due to contact with the molten glass strip, thereby automatically regulating it.

There is no need for a complicated method of speed control and its synchronization with other control elements. Likewise, due to the thermal disturbance of the shaft, it is not possible to throw, which causes the float glass to vibrate and subsequently break.

Likewise, the service life of the shaft and the carbon disc is many times higher, since the shaft practically functions as an axis.

and*

The enamel float control system is shown schematically in the accompanying drawing, wherein Fig. 1 shows a cross-section of a carbon disk positioned above a water-cooled shaft in a static state.

FIG. 2 shows the arrangement of the control elements in the bath. A control system according to the invention is suspended glass is formed e.g. such that it is assembled from at least three elements, such as hollow water-cooled shaft 2 ^with variable speed, in combination with at least one pair of shafts 2 built in the wall of the pool £ nonrotatably.

The shaft 23 is provided at the end with a carbon disk 11 rotatably mounted on the pin 3. The disk 1 is provided with a circumferential double-row toothing and secured by a ring 9 and a fuse 8. The shaft 2, the pin 3, the ring 9 and the fuse 6 are of refractory material.

The shafts 2 and the shafts 5 are located in the wall of the pool in pairs mirroring the float glass by 12 °. The number of non-driven carbon disks 2 is selected depending on the thickness of the float glass 8 as follows:

At a thickness of 2 mm, two pairs of driven discs 2 ^and til are used. When drawing glass of greater thickness, the number decreases proportionally, and when drawing glass of 3 mm, two pairs of driven discs 2 ^and two pairs of rotatably mounted discs 2 according to the invention are used.

At a float belt thickness of more than 4 mm, two pairs of driven discs 4, ^and one pair of pivoted discs 2, are fully sufficient. The carbon discs 2 ^are 5 to 30% wider than the metal driven discs.

The rotatable discs 2 extend 5-10 cm from the edge of the molten glass web and rotate freely depending on the speed of the molten glass web, thereby achieving uniform flooding without the need for synchronization with the other driven discs.

The glass melting control system of the invention can be used in the manufacture of flat glass by float.

Claims (1)

A glass flood control system formed by at least six elements, designed as hollow water-cooled shafts, and located in the wall of the bath bath mirror in pairs, characterized in that the hollow water-cooled shaft (2) of at least the last pair in terms of glass flow is in the wall 7) the bath is installed in a non-rotatable manner and is provided with a freely rotatable carbon disc (1) with circumferential double-row toothing, the disc (1) extending 5 to 10 m from the edge of the molten glass.